4155C Datasheet, PDF(6/14 Page) Agilent(Hewlett-Packard)

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4155C Datasheet, PDF (6/14 Pages) Agilent(Hewlett-Packard) – Parameter Analyzer

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Capacitance Calculation Accuracy (Supplemental Data)

Accuracy is derived from the current range, voltage range, capacitance measurement and

leakage current measurement integration times, and the guard capacitance of cabling

and step voltage. The information in the chart below is based on the following condi-

tions: Voltage Range Â±20 V; Voltage Step: 100 mV; Guard Capacitance: 100 pF; Equivalent

parallel resistance of DUT: 1 Ã 1015 Î©. The ratio of integration times for capacitance

measurement and leakage current measurement is 1:1.

HRSMU

Current

Range

10 pA/

100 pA

1 nA

10 nA

Integration

Time

0.5 sec

1 sec

2 sec

0.1 sec

0.5 sec

2 sec

0.1 sec

0.5 sec

2 sec

10 sec

Max. Meas.

Value

100 pF/1 pF

2 pF/20 pF

76 pF/760 pF

700 pF

4.5 nF

18 nF

7 nF

45 nF

180 nF

940 nF

Resolution

5 fF

10 fF

20 fF

10 fF

40 fF

200 fF

10 fF

40 fF

200 fF

1 pF

Accuracy

Reading %

4.2

4.3

0.84

0.85

0.93

0.84

0.85

0.93

1.3

Offset

70 fF

90 fF

130 fF

160 fF

280 fF

740 fF

200 fF

440 fF

1.4 pF

6.2 pF

MPSMU

Current Integration Max. Meas. Resolution Accuracy Offset

Time

Value

Reading %

1 nA

0.1 sec

700 pF

10 fF

0.91

170 fF

0.5 sec

4.5 nF

40 fF

0.94

340 fF

2 sec

18 nF

200 fF

1.0

1 pF

10 nA 0.1 sec

7 nF

10 fF

0.91

180 fF

0.5 sec

45 nF

40 fF

0.94

480 fF

2 sec

180 nF

200 fF

1.0

1.6 pF

10 sec

940 nF

1 pF

1.6

7.6 pF

Current compliance must be smaller than the current range. The capacitance of the DUT and measurement path must

be smaller than the maximum measurement value.

Functions

Measurement Setup

Setting

â¢ Fill-in-the-blanks using front-panel or

full-size external keyboard

â¢ Load settings from ï¬oppy disk or via the

LAN port

â¢ Program using internal Instrument BASIC

or via GPIB

â¢ HELP Function

â¢ Library: Default measure setup, Vce-Ic,

Vds-Id, Vgs-Id, and Vf-If are predeï¬ned

softkeys

â¢ User-deï¬ned measurement setup library

â¢ Auto ï¬le load function on power-up

Measurement

The 4155C and 4156C can perform dc

or pulsed force/measure, and stress

force. For dc, voltage/current sweep and

sampling (time domain) measurements are

available.

Voltage/Current Sweep

Measurement Characteristics

Each SMU and VSU can sweep

using VAR1 (primary sweep),

VAR2 (subordinate sweep), or

VAR1 (synchronous sweep).

VAR1

Primary sweep controls the staircase (dc

or pulsed) voltage or current sweep.

Maximum number of steps: 1001 for one

VAR1 sweep.

Sweep type: linear or logarithmic

Sweep direction: Single or double sweep

Hold time: Initial wait time or wait time

after VAR2 is set: 0 to 655.35 s with 10

ms resolution

Delay time: Wait time from VAR1 step to

the start of the measurement: 0 to 65.535

s with 100 Î¼s resolution

VAR2

Subordinate linear staircase or linear

pulsed sweep. After primary sweep

is completed, the VAR2 unit output is

incremented.

Maximum number of steps: 128

VAR1'

Staircase or pulse sweep synchronized with

the VAR1 sweep. Sweep is made with a

user speciï¬ed ratio and offset value. VAR1'

output is calculated as VAR1' = a Ã VAR1

+ b, where âaâ is the user speciï¬ed ratio

and âbâ is the user speciï¬ed offset value.

CONSTANT

A source unit can be set as a constant

voltage or current source depending on

the unit.

PULSE

One of the SMUs can be set as a pulse

source.

Pulse width: 0.5 ms to 100 ms, 100 Î¼s

resolution.

Pulse period: 5 ms to 1 s (pulse

width + 4 ms), 100 Î¼s resolution.

SMU pulse setting accuracy

(supplemental information, at ï¬xed

range measurement except multichannel

measurement):

Width: 0.5% + 50 Î¼s

Period: 0.5% + 100 Î¼s

Trigger output delay for pulsed measure-

ment: 0 - 32.7 ms with

100 Î¼s resolution (< pulse width).

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